Ultracompact 3D microfluidics for time-resolved structural biology

There is a need for more robust sample delivery methods for serial crystallography. Here the authors present the design and characterization of ultracompact 3D microfluidic devices that can be printed, which require less sample, have a lower background signal and allow 3D mixing for time resolved ex...

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Autores principales:	Juraj Knoška, Luigi Adriano, Salah Awel, Kenneth R. Beyerlein, Oleksandr Yefanov, Dominik Oberthuer, Gisel E. Peña Murillo, Nils Roth, Iosifina Sarrou, Pablo Villanueva-Perez, Max O. Wiedorn, Fabian Wilde, Saša Bajt, Henry N. Chapman, Michael Heymann
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2020
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/443090b0fc014b6fbd18956de00bb956
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spelling	oai:doaj.org-article:443090b0fc014b6fbd18956de00bb9562021-12-02T15:37:20ZUltracompact 3D microfluidics for time-resolved structural biology10.1038/s41467-020-14434-62041-1723https://doaj.org/article/443090b0fc014b6fbd18956de00bb9562020-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-14434-6https://doaj.org/toc/2041-1723There is a need for more robust sample delivery methods for serial crystallography. Here the authors present the design and characterization of ultracompact 3D microfluidic devices that can be printed, which require less sample, have a lower background signal and allow 3D mixing for time resolved experiments.Juraj KnoškaLuigi AdrianoSalah AwelKenneth R. BeyerleinOleksandr YefanovDominik OberthuerGisel E. Peña MurilloNils RothIosifina SarrouPablo Villanueva-PerezMax O. WiedornFabian WildeSaša BajtHenry N. ChapmanMichael HeymannNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-12 (2020)
institution	DOAJ
collection	DOAJ
language	EN
topic	Science Q
spellingShingle	Science Q Juraj Knoška Luigi Adriano Salah Awel Kenneth R. Beyerlein Oleksandr Yefanov Dominik Oberthuer Gisel E. Peña Murillo Nils Roth Iosifina Sarrou Pablo Villanueva-Perez Max O. Wiedorn Fabian Wilde Saša Bajt Henry N. Chapman Michael Heymann Ultracompact 3D microfluidics for time-resolved structural biology
description	There is a need for more robust sample delivery methods for serial crystallography. Here the authors present the design and characterization of ultracompact 3D microfluidic devices that can be printed, which require less sample, have a lower background signal and allow 3D mixing for time resolved experiments.
format	article
author	Juraj Knoška Luigi Adriano Salah Awel Kenneth R. Beyerlein Oleksandr Yefanov Dominik Oberthuer Gisel E. Peña Murillo Nils Roth Iosifina Sarrou Pablo Villanueva-Perez Max O. Wiedorn Fabian Wilde Saša Bajt Henry N. Chapman Michael Heymann
author_facet	Juraj Knoška Luigi Adriano Salah Awel Kenneth R. Beyerlein Oleksandr Yefanov Dominik Oberthuer Gisel E. Peña Murillo Nils Roth Iosifina Sarrou Pablo Villanueva-Perez Max O. Wiedorn Fabian Wilde Saša Bajt Henry N. Chapman Michael Heymann
author_sort	Juraj Knoška
title	Ultracompact 3D microfluidics for time-resolved structural biology
title_short	Ultracompact 3D microfluidics for time-resolved structural biology
title_full	Ultracompact 3D microfluidics for time-resolved structural biology
title_fullStr	Ultracompact 3D microfluidics for time-resolved structural biology
title_full_unstemmed	Ultracompact 3D microfluidics for time-resolved structural biology
title_sort	ultracompact 3d microfluidics for time-resolved structural biology
publisher	Nature Portfolio
publishDate	2020
url	https://doaj.org/article/443090b0fc014b6fbd18956de00bb956
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Ultracompact 3D microfluidics for time-resolved structural biology

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